1. Field of the Invention
The present invention relates to a semi-permanent bottle closure device mounted on a beverage bottle which allows quick, single hand opening and reclosing of the bottle. The device provides a hygienically clean surface for the consumer to interface with during drinking.
2. Background
The current state of the art closures for carbonated and many uncarbonated beverages require the closure to be removed entirely from the container (i.e. bottle) prior to consumption of the beverage. In addition, the typical closure designs rely on two-handed operation—one hand holds the container, whereas the other one interfaces with the closure and completes the opening/closing procedure.
Still further, current bottle closure devices which are not removed from the bottle while the contents are consumed often are formed of multiple parts which are difficult to mold and assemble. Moreover, the multiple parts make it difficult to form secure leak-proof seals, and they restrict fluid flow thereby reducing the volume flow rate dispensed from the bottle. In carbonated beverage applications, these restrictions create turbulence that produces foaming which releases carbonation from the beverage and therefore decreases the enjoyment of the consumption of the beverage.
Accordingly, it is an object of the present invention to provide a closure for a bottle which remains on the bottle while a beverage is being dispensed and which can be opened and closed with one hand.
Another object of the present invention is to provide such a closure which is fabricated from a minimal number of parts.
Yet another object of the invention is to provide such a closure which can be injection molded.
A further object of the invention is to provide such a closure which produces minimal turbulence during dispensing of the closure.
A still further object of the invention is to produce a one hand operated closure which has good sealing characteristics and is reliable in operation.
A still further object of the present invention is to provide a selectively openable cap which remains on the bottle so that it cannot be misplaced and is conveniently located for reclosing the bottle on which it is placed.
In accordance with an aspect of the present invention, a bottle closure is provided which does not need to be removed from the bottle for the purpose of consuming the liquid contained therein. In addition, opening and closing of the closure may be performed with one hand. This feature becomes important in applications where the user is busy performing other tasks, e.g., talking on the phone, driving a car, or just walking down the street. The closure of the invention also has unexpected application in the small-children market as there are no small loose pieces to create choke hazards, and the container is easy to open or close even with the small hands of children.
Sports drinks and other non-carbonated beverages have been marketed with unique closures like sports tops for years. The present invention, while useful for non-carbonated beverages, now brings the same unique drinking experience to the carbonated beverage category. Since the closure does not require removal of the cap, it is easily, conveniently and reliably resealable, thus minimizing the loss of carbonation through exposure to the atmosphere.
The closure of the present invention is conveniently injection molded while shaped to provide a sealing arrangement that preserves carbonation in a beverage when closed. It also provides a wide spout from which the beverage may be poured or sipped. The construction of the invention permits the dimensions of the spout to approach the same size and feel as a conventional bottle top.
The above, and other objects, features and advantages of the invention will be apparent in the following detailed description of illustrative embodiments thereof when read in connection with the accompanying drawings, wherein:
Referring now to the drawings in detail, and initially to
Inner closure member 12 is semi-permanently attached to the neck 22 of a beverage bottle 24 through a threaded interference fit (or other means) between the bottle threads 23 and internal threads 26 molded on the inner surface 28 of piece 12. Those threads, 26, have gaps 27 (see
It is intended that the interference fit of inner closure member 12 on bottle 24 will prevent normal users from unscrewing the entire closure from the bottle top. The closure is not intended as a reusable device. In addition, inner closure member 12 may include a tamper-proof band (not shown) which engages the standard bottle finish like any standard bottle cap, which serves to resist removal of the piece 12 from the bottle and visually identify a breach to the integrity of the closure. Alternatively, the cap may have a conventional heat shrink wrap.
Inner closure member 12 includes an integral frustro-conical flange 30 having a central opening or port 32 therein. The flange or shelf is sloped and overlies the top edge 29 of bottle neck 22 to allow unconsumed beverage to flow back into the container. In addition, the slope of shelf 30 eliminates possible beading of the liquid in the corner where it joins the inner wall of member 12.
Inner closure member or piece 12 has an upwardly extending collar 25 which is flexible and has an upper edge 43 including an outer bead 45′. This bead resiliently engages the inner cylindrical surface 47 of outer closure member or piece 14 to form an additional seal preventing fluid flow in the space between the outer surface of inner piece 12 and the inner surface of outer closure member 14.
Outer closure member 14 is threadedly engaged over inner closure member 12, as shown in
One of the stops 45 is seen in
Outer closure member 14 has three distinctive areas for description purposes—a “skirt” 38, a “dome” 40, and a “chimney” or spout 42, all integrally molded together in an injection molding process.
Skirt 38 is the lower portion of the outer piece and as described above, is rotatably mounted on the inner closure member. Termination of rotation in the closed direction of member 14 on member 12 occurs after the dome seal 40 has seated itself properly against the inner piece, as shown in
The external surface of skirt 38 has a number of vertical ribs 51 protruding from it which serve as points of interference with the user and allow for an easy grip or purchase to torque the outer piece and induce the required rotation. As seen in
Skirt 38 may also have a tamper-proof band (not shown), which interfaces with a feature on the inner closure member 12 and acts in a similar fashion as a standard tamper-proof band to resist initial opening of the closure and to provide a visual indication of a breach in the integrity of the closure.
Dome 40 is located on the inside of outer closure member 14 and serves as a plug to close the container, by tightly interfacing with a matched tapered edge 33 of flange 30 which forms a valve seat. The entire lower portion 53 of dome 40 is designed as a seal, which comes into contact with valve seat 33 and completes the seal. The dome shape provides even distribution of sealing forces without deformation of the sealing surfaces.
Dome 40 is supported by a plurality of “stilts” or legs 50 having openings 52 between them, which allow the beverage in bottle 24 to flow between the stilts while the closure is in the open position as shown in
The spout 42 of outer closure member is the upper portion of the member 14. Its function is to provide a comfortable feature that a user will enjoy drinking from. The top rim 54 of spout 42 has a bead 56 all around it to allow for easy “registration” with user's lips. The height of spout 42 is selected to provide a “seat” for the lower lip of the user during drinking similar to that of a neck of a bottle. In addition, the diameter of the spout closely resembles the diameter of a standard bottle finish. By not reducing the flow area, this structure also minimizes the release of carbonation from the solution, and foaming, thus enhancing the drinking experience.
The entire spout is kept hygienically clean during shipment through the use of a removable dust cap 58 which surrounds the entire spout area, and snap fits on bead 56 by means of the complementary ribs 60 (
Dust cap 58 is engaged, as described, to the spout when the bottle closure is closed to keep the spout free from any external contaminants. Prior to initial use, the dust cap is semi-permanently attached to the outer piece through the use of a tamper-proof band (the third in the product, not shown). Once the tamper-proof band is removed, the dust cap can be removed from the spout while drinking from the bottle and then reinstalled by re-engaging the ribs 60 on the inner surface of the dust cap with the bead on the rim of the spout. In addition the dust cover is equipped with vents or crenelations 62 which allow the release of pressure, if the dust cap is not removed prior to opening the closure.
Additional embodiments of the invention are shown in
illustrated in
When inner member 12 is threaded down into its lowermost position, corresponding to the position shown in
Inner member 12, in this embodiment, also has an upper cylindrical wall or collar 25, whose upper edge 43 forms a seal with the inner cylindrical surface 47 of outer member 14.
The embodiment of
The embodiment of the invention illustrated in
The embodiment of
The embodiments of
An outer closure member 114 is also provided which has a skirt portion 138 and a neck or spout portion 142. A disk-shaped inner closure member or valve 140 is supported on a plurality of depending legs 150 formed within outer member 114. The disk-shaped member is secured to base 152 of the legs 150 by a welded pin 154 or the like.
Valve 14O has a tapered surface 141 which mates with the surface 117 of the inner member 112 to form a seal therebetween. In the sealed or closed position outer member 114 is threaded to a raised position on inner member 112, so as to draw the surface 141 of valve 140 against seat 117 to prevent liquid being dispensed out of the bottle. When outer member 114 is rotated in an opposite direction to move it down against the inner member, the surface 141 is moved away from the seat 117 so that fluid can flow through the spaces 152 between the legs 150 out of the closure.
It is noted that the embodiments of the invention shown in
The embodiment of the invention illustrated in
Outer member 214 is threadedly engaged on the outer surface of the inner member 212 and includes a central cylindrical member or neck 242 having a beaded upper end 254. The lower end 255 of cylindrical neck 242 is adapted to engage a portion of the sealing disk 231 when the outer member 214 is threaded downwardly on the inner member 212. Thus, as seen in
The embodiment of
In the upper position of outer member 314 on inner member 312, legs 350 draw disk 340 into engagement with the surface 315 of inner piece 312 to form a leakproof closure. When outer member 314 is rotated in an opposite direction to move it downwardly towards the bottle relative to the inner piece 312, the disk 340 is moved away from surface 315 in order to allow fluid flow from the bottle through the closure for consumption by the user.
Outer member 414 in this embodiment has a neck or spout 442 which includes a truncated hemisphere section 446. A generally spherical sealing ball 440 is rotatably mounted between the inner surface 447 of neck section 446 and the valve seal 415. Ball 440 has a central port 416 formed therein. The surface of ball 440 has a spiral-like groove 447 formed therein which engages pins 449 in the outer member 414 so that when the outer member is rotated relative to the inner member, ball 440 is moved from the position shown in
As will be appreciated, these various embodiments of the invention provide a fluid-tight closure, with a minimal number of elements to form the closure. Each of these embodiments may be inexpensively injection molded.
Although certain of the embodiments show the outer member as being cylindrical, it is to be understood that preferably the body of the outer member has an enlarged diameter portion similar to that shown for the embodiment of
Although illustrative embodiments of the present invention have been described herein with reference to the accompanying drawings, it is to be understood that the invention is not limited to those precise embodiments, but that various changes and modifications may be effected therein by one skilled in the art without departing from the scope or spirit of this invention.
Number | Date | Country | |
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0050884 A1 | Mar 2004 | US |
Number | Date | Country | |
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60318331 | Sep 2001 | US |